NL1030233C2 - Electronic identification system for labelled items, especially library books, uses conveyor to transport items through detection zone - Google Patents

Abstract

A conveyor (2) is used to transport the item (3) through the detection zone. Identification labels (8) are secured to the items, which are identified by moving them through a detection zone in order to read an identification code on the label.

Description

Title: Electronic identification system for articles provided with detection labels.

The invention relates to an electronic identification system for articles provided with detection labels, comprising a number of detection labels which, in operation, are attached in or to the articles, such as for example books, CDs and / or DVDs, the system comprising detection means for a detection zone to determine an identification code of a detection label attached to an article.

Such article identification systems are known per se. For example, an identification system for library articles is known, which comprises a detection system built into a counter, wherein a user, for example a library employee, a library article, such as for instance a book, a CD, a DVD, a brochure, etc., slides over the counter in the detection zone of the detection system so that the detection system can determine the identification code of the electronic tag attached to the library object.

The known system has the drawback that the user sometimes has to move the library article back and forth several times in the detection zone to find such an orientation of the article that the detection means can correctly determine the identification code. This also entails that the articles must be processed one by one. The known system is therefore experienced as slow and insufficiently reliable. Moreover, moving the library object in the detection zone is physically stressful for the user.

It is an object of the invention to provide an identification system of the type described above that has an improved ease of use and / or is less physically demanding for the user.

1030233-2

To this end, an identification system of the type described above is characterized in that the identification system is provided with a transport device which can carry an article provided with a detection label through the detection zone of the identification system.

It is noted that an electronic identification system according to the invention is particularly suitable for use in libraries and will hereinafter also be described on the basis of that application.

Nevertheless, other applications are also conceivable, such as the identification of (packaged) medicines. In general, the system 10 is particularly suitable for use for critical products (medicines) or valuable objects, or articles, which can change location and where it is important to know where they are located.

The invention will be explained in more detail below with reference to the drawing. FIG. 1 is a schematic representation of a first exemplary embodiment of an identification system for library articles according to the invention; Fig. 2 is a block diagram of an example of an identification system according to the invention; Fig. 3 schematically shows a second embodiment of an identification system according to the invention in perspective; and Fig. 4 shows a side view according to III of the device of Fig. 3.

FIG. 1 schematically shows an exemplary embodiment of an identification system 1 according to the invention for library articles or the like. In the example shown, the identification system comprises conveyor 2, which comprises a library article 3 o.d. can pass through a detection zone in a conveying direction P. For this purpose, the conveyor has a conveying path which extends through the detection zone. In the example shown, the conveyor 2 is a belt conveyor, but can also be another type of conveyor 30. In the example shown, the detection zone is in a tunnel 4.

(103 02 33-3)

In the tunnel there is at least one antenna 5 of the identification system for generating an electromagnetic interrogation field in the interior of the tunnel. To this end, the antenna is connected via connecting terminals 6 to a transmitting / receiving device 7, which may be of a type known per se. With the aid of the interrogation field, the transmitting / receiving device can place a in or on the library article 3 or the like. detect applied detection label 8 and read and recognize an identification code arranged in the detection label. The detection label can comprise a coded electronic circuit or a coded magnetic strip in known manner. Use is preferably made of RF-ID (RadioFrequency - Identification) labels and an associated RF transmitting / receiving device. A frequency of 13.56 MHz is currently available for this purpose. However, systems with labels operating at a different frequency also form part of this invention.

An interrogation field generated by a loop antenna, such as antenna 5, has curved field lines and also a location-dependent field density. The coupling of the interrogation field with the identification label hereby varies depending on the location and / or orientation of the label in the interrogation field. However, if the label is passed through the field generated in the tunnel 4 by the conveyor 2, regardless of the way in which the library article is placed on the conveyor, the label will always come into a position somewhere within the tunnel in which the coupling between the label and the interrogation field are optimal and the identification code can be recognized by the sending / receiving device. There is therefore detection, which is independent of the orientation of the label (orientation independent detection, etc.).

The loop antenna can in principle be arranged in or along the walls of the tunnel 5 in any position. For example, the antenna can extend parallel to a side wall or to a bottom * or top wall.

If desired, it is also possible to use several loop antennas, whether or not arranged in or along different walls. In the example shown, a bis-antenna is used which is arranged in or along the walls of the tunnel such that the conveyor extends through the antenna loop. The plane of the antenna loop can extend transversely to the conveying direction P, but preferably closes, as shown, a angle with the transport direction P and with the vertical plane V.

The tunnel 4 is preferably provided with a shielding housing, which essentially limits the interrogation field generated in the tunnel to the interior of the tunnel. This protects the user against electromagnetic radiation. In this way it is also prevented that library articles located in the vicinity of the tunnel are identified and confusion can arise about the identification of the article carried through the tunnel.

The identification system described above, hereinafter also referred to as tunnel detector, can if desired be provided with a barcode reader 10, which can read a barcode applied to a library article.

The tunnel detector is used as follows when lending a library article. The article to be borrowed is placed on the transporter by a library employee or a customer and passed through the interrogation field. The identified and recognized identification code of the item is then linked to the customer data. If customer cards are used, the barcode or magnetic stripe, etc., is used. read from the customer card with the aid of a card reader coupled to the identification system. In this way it can be registered which article was borrowed by which customer.

A library is usually provided with a detection system placed near the exit (s), also referred to as an anti-shrink system, which can detect a detection article of a library article equipped with an anti-shrink function, in order to prevent articles, 11030233 are not registered by the customer. In order to be able to take along a registered item and return it later without the output detection system triggering an alarm, the anti-loss function of the label must be deactivated. To this end, the label can be arranged such that, after deactivation, it is not or with a modified code indicating the deactivation, detected by the output detection system. The article can therefore be returned without any problems. When the article is returned, the article is then passed through the tunnel detector and the anti-loss function of the label is activated again.

Alternatively, a deactivation and subsequent activation of the anti -ervervation function of a label can take place by software. In a computer, for example a PC, coupled to the tunnel detector, an identification code determined during the lending of a library article in the tunnel detector can be stored together with the customer data in a lending register. The output detection system can then, after recognition of an identification code of a label, compare this code with the codes in the lending register. If the code appears in the lending register, it is a legally lent item that can pass without an alarm. If the 20 code does not appear in the lending register, it is a case of an unregistered item and an alarm signal or the like may be generated. be raised.

When returning an item, it is not necessary to read the customer card, since the system already knew who had borrowed the item.

FIG. 2 schematically shows such a system. The identification system 1 with conveyor 2, tunnel 4 and transmitting / receiving device 7 is connected to a computer 12. Furthermore, an output detection system 14 is shown with detection gates 15, 16 and a transmitting / receiving device 17. The transmitting / receiving device is again coupled to the computer 12. The tunnel and the conveyor are placed on a check-in counter 11 and a card reader 18 is also shown, which is also connected to the computer 12.

If the tunnel detector is also provided with a barcode reader 10, as shown in Fig. 1, it can also be connected to the computer 12.

The tunnel detector can, if desired, also be used in combination with an intake machine with sorting function, whereby the sorting can take place on the basis of the identification code and / or a bar code on the article.

Further, the computer 12 may be a PC or the like or a remote central computer connected to the tunnel detector via an intranet or the Internet.

The tunnel detector can also be connected to a screen, on which it is indicated which articles have been passed on and, if desired, also to which customer the articles have been or are lent.

Some advantages of using a tunnel detector according to the invention instead of a conventional desk reader are the following.

Identification always takes place in the tunnel. Re-entry is not necessary.

The system works faster due to the use of the conveyor 20 and is physically less stressful for the personnel.

The activation and deactivation of labels can take place in the tunnels with greater operational reliability.

The tunnel can easily be screened electronically, avoiding the appearance of the interrogation field in the free space.

25 - The risk of operating errors is very low, so that the system is also suitable for self-service by customers.

The tunnel can be used for bulk processing of items.

It does not matter at what angle the articles are led through the tunnel.

1030233-7

The tunnel detector can be used to quickly and easily identify the article file and to convert barcodes on the articles into, or link to, RF-ID codes and vice versa.

An important application possibility of the tunnel detector is the simultaneous processing of a large number of articles. The transmitting / receiving device is then arranged in a manner known per se for recognizing a plurality of detection labels which are simultaneously located in the interrogation field. Together with the orientation-independent detection provided by the tunnel detector, this offers the possibility of, for example, placing all books or other articles in a box or the like. to identify in a process and to enter it into an article registration system, such as a book file or a stock file. To this end, the articles must already be provided with detection labels with identification codes beforehand, for example by making agreements with the manufacturer or supplier.

Such a bulk detection saves a lot of time and can be used not only for example for the collection of new books or the like, but also for the depreciation of books or the like that are removed from the collection. The anti-deprivation function can also be activated or deactivated if desired.

FIG. 3 and FIG. 4 are diagrammatic, perspective views, respectively. in side view an example of a tunnel detector 30, wherein the walls 31a to 3ld of the tunnel detector 31 are thought transparent, and wherein in the tunnel 31 there is a box 33 filled with labeled articles, such as for instance books 32, boxes of medicines, . The box is passed through the tunnel by means of a conveyor not shown in these figures. Of the contents of the box, only the top layer of articles is shown.

The Figs. 3 and 4 also schematically show an antenna loop 34, which comprises four sections 34a to 34d. The sections 34a and 34c lie in or along the tunnel's side walls 31a and 31c, and the sections 34b and 34d lie in or along the bottom wall 31b, respectively. the top wall 31d of the tunnel.

In the exemplary embodiment of Fig. 4, the antenna sections 34a and 34c are offset with respect to each other in the transit direction of the tunnel. As a result, the sections 34b and 34d extend obliquely with respect to the feed-through direction P. The plane of the antenna loop therefore makes an acute angle with both the feed-through direction P and with a plane perpendicular to the feed-through direction. With such an orientation of the antenna loop, even with a single antenna loop an orientation-independent identification of the labels of the articles can be obtained.

It is noted that, after the foregoing, various modifications are obvious to those skilled in the art.

It is thus possible to provide the tunnel with several antennas.

Various antenna shapes are also possible, such as for example an 8-shaped antenna, if an antenna placed in or along a tunnel wall is used.

Transporters of different types can also be used.

As already noted, the invention is very suitable for use for library articles, but also for other articles whose identification is desired at specific places and / or times. Consider, for example, medication intended for a pharmacy or the like.

These and similar modifications are obvious to the person skilled in the art and are understood to fall within the scope of the invention as defined in the appended claims.

1030233 =

Claims (20)

An electronic identification system for articles provided with detection labels comprising a number of detection labels attached in operation to or to the articles, the system comprising detection means for determining in an detection zone an identification code of a detection label attached in or to an article 5, with characterized in that the identification system is provided with a transport device which can carry an article provided with a detection label through the detection zone of the identification system. 2. Electronic identification system as claimed in claim 1, characterized in that the detection means in the detection zone generate an interrogation field such that the identification code of a detection label is detected independently of the position and / or position thereof in the interrogation field. 3. Electronic identification system as claimed in claim 1 or 2, characterized in that the detection zone is located in a tunnel and that the conveyor extends through the tunnel. Electronic identification system according to claim 1, 2 or 3, characterized in that the tunnel comprises at least one loop antenna, which is connected to a transmitting / receiving device of the identification system. An electronic identification system according to claim 4, characterized in that the tunnel comprises at least one loop antenna, and in that the transport path of the transport device extends through the loop antenna. 6. Electronic identification system as claimed in claim 5, characterized in that said loop antenna lies in a plane that encloses an acute angle with the conveying direction of the conveying device. 1030233 = An electronic identification system according to claim 5 or 6, characterized in that the loop antenna is in a plane that encloses an acute angle with one plane transverse to the direction of transport. Electronic identification system according to one of claims 1 to 5. characterized in that a barcode reader is provided near the detection zone for reading a barcode applied to an article. Electronic identification system according to one of claims 1 to 8, characterized in that the identification system is connected to a computer for registering received and / or issued articles. Electronic identification system according to claims 8 and 9, characterized in that the barcode reader is connected to the computer. An electronic identification system according to any one of the preceding claims, characterized in that the identification labels are arranged to be deactivated. 12. Electronic identification system according to claim 11, characterized in that the identification labels are adapted to be activated from a deactivated state. 13. Electronic identification system for library articles according to claim 11 or 12, characterized in that the identification system is adapted to activate and deactivate the identification labels. Electronic identification system according to one of Claims 1 to 13, characterized by a reader for a customer pass. Electronic identification system according to claims 9 and 14, characterized in that the customer card reader is connected to the computer. Electronic identification system according to one of claims 9 to 15, characterized in that the computer is connected to an output detection system for detecting carried articles. An electronic identification system according to claim 16, characterized in that the computer is adapted to suppress an alarm signal upon detection by the 1030233 output detection system of an article registered as a carry-along article. 18. Electronic identification system as claimed in any of the foregoing claims, characterized in that the identification system is provided with a screen for displaying information about articles whose identification code has been read. Electronic identification system according to one of the preceding claims, characterized in that the identification system is coupled to a sorting device. 10 20. Electronic identification system as claimed in any of the claims 1 to 19, characterized in that the detection means are arranged to detect the identification codes of a plurality of detection labels simultaneously or substantially simultaneously and that the transport device is arranged to accommodate a large number of articles provided with detection labels to pass through the detection zone in one pass. (103 0233-